F06PrimaryGeneratorAction Class Reference

#include <F06PrimaryGeneratorAction.hh>

Inheritance diagram for F06PrimaryGeneratorAction:

Public Member Functions
	F06PrimaryGeneratorAction (void)
virtual	~F06PrimaryGeneratorAction ()
virtual void	GeneratePrimaries (G4Event *)
Public Member Functions inherited from G4VUserPrimaryGeneratorAction
	G4VUserPrimaryGeneratorAction ()
virtual	~G4VUserPrimaryGeneratorAction ()

Detailed Description

Definition at line 46 of file F06PrimaryGeneratorAction.hh.

Constructor & Destructor Documentation

F06PrimaryGeneratorAction::F06PrimaryGeneratorAction

(

void

)

Definition at line 49 of file F06PrimaryGeneratorAction.cc.

References G4ParticleTable::FindParticle(), G4cout, G4endl, G4ParticleTable::GetParticleTable(), G4ParticleDefinition::GetPDGCharge(), G4ParticleDefinition::GetPDGMagneticMoment(), G4ParticleDefinition::GetPDGMass(), and G4ParticleGun::SetParticleDefinition().

{
  G4int n_particle = 1;
  fParticleGun  = new G4ParticleGun(n_particle);

  G4ParticleTable* particleTable = G4ParticleTable::GetParticleTable();

  G4ParticleDefinition* particle = particleTable->FindParticle("proton");
  G4double mass_proton = particle->GetPDGMass();

  G4double muN = 0.5*CLHEP::eplus*CLHEP::hbar_Planck/
                                               (mass_proton/CLHEP::c_squared);

  G4cout << " *** Neutron *** " << G4endl;

  particle = particleTable->FindParticle("neutron");
  G4double mass_neutron = particle->GetPDGMass();

  G4double magneticMoment = particle->GetPDGMagneticMoment();
  G4cout << " magneticMoment: " << magneticMoment/muN << G4endl;

  // g_factor for spin 1/2

  G4double g_factor = 2 * magneticMoment/muN;
  G4cout << " g_factor: " << g_factor << G4endl;

  G4double charge = particle->GetPDGCharge();
  G4cout << " charge: " << charge << G4endl;

  G4double anomaly = (g_factor - 2.)/2.;
  G4cout << " anomaly: " << anomaly << G4endl;

  anomaly = (g_factor * (mass_neutron/mass_proton) - 2.)/2.;
  G4cout << " corrected anomaly: " << anomaly << G4endl;

  muN = 0.5*CLHEP::eplus*CLHEP::hbar_Planck/(mass_neutron/CLHEP::c_squared);
  g_factor = 2 * magneticMoment/muN;

  anomaly = (g_factor - 2.)/2.;
  G4cout << " *** anomaly: " << anomaly << G4endl;

    G4cout << " *** MuonPlus *** " << G4endl;

  particle = particleTable->FindParticle("mu+");
  G4double mass_muon = particle->GetPDGMass();

  G4double muB = 0.5*CLHEP::eplus*CLHEP::hbar_Planck/
                                                 (mass_muon/CLHEP::c_squared);

  magneticMoment = particle->GetPDGMagneticMoment();
  G4cout << " magneticMoment: " << magneticMoment/muB << G4endl;

  // g_factor for spin 1/2

  g_factor = magneticMoment/muB;
  G4cout << " g_factor: " << g_factor << G4endl;

  charge = particle->GetPDGCharge();
  G4cout << " charge: " << charge << G4endl;

  anomaly = (g_factor - 2.)/2.;
  G4cout << " anomaly: " << anomaly << G4endl;

//  anomaly = particle->CalculateAnomaly();
//  G4cout << " *** anomaly: " << anomaly << G4endl;

  particle = particleTable->FindParticle("neutron");
  fParticleGun->SetParticleDefinition(particle);
}

F06PrimaryGeneratorAction::~F06PrimaryGeneratorAction ( )

virtual

Definition at line 121 of file F06PrimaryGeneratorAction.cc.

{
  delete fParticleGun;
}

Member Function Documentation

void F06PrimaryGeneratorAction::GeneratePrimaries ( G4Event *  anEvent )

virtual

Implements G4VUserPrimaryGeneratorAction.

Definition at line 128 of file F06PrimaryGeneratorAction.cc.

References python.hepunit::eV, G4UniformRand, G4ParticleGun::GeneratePrimaryVertex(), python.hepunit::pi, G4ParticleGun::SetParticleEnergy(), G4ParticleGun::SetParticleMomentumDirection(), G4ParticleGun::SetParticlePolarization(), G4VPrimaryGenerator::SetParticlePosition(), test::x, and z.

{
  //this function is called at the begining of event
  //

  fParticleGun->SetParticlePosition(G4ThreeVector(0.0, 0.0, 0.0));
  fParticleGun->SetParticlePolarization(G4ThreeVector(0,1,0));

  G4double particleEnergy = G4UniformRand()*1e-7*eV;
  fParticleGun->SetParticleEnergy(particleEnergy);

  G4double theta = 2*pi*G4UniformRand();
  G4double phi = std::acos(1-2*G4UniformRand());
  if (phi > pi/2 && phi < pi) phi = pi-phi;

  G4double z = std::sin(phi)*std::cos(theta);
  G4double x = std::sin(phi)*std::sin(theta);
  G4double y = std::cos(phi);

  fParticleGun->SetParticleMomentumDirection(G4ThreeVector(x,y,z));

  fParticleGun->GeneratePrimaryVertex(anEvent);
}

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The documentation for this class was generated from the following files:

• F06PrimaryGeneratorAction.hh
• F06PrimaryGeneratorAction.cc